KR101582359B1 - Flow Sensing Apparatus and Flow Sensing Method using the same - Google Patents

Abstract

A flow rate sensing device and a flow rate sensing method using the same are provided. The disclosed flow rate sensing device includes an impeller disposed on a flow path and rotationally driven by raw water supplied from a water outlet, a magnetic force sensor having a configuration in which polarities of N or S poles are alternately repeated as the impeller is rotated, A polarity sensing sensor arranged to be spaced apart from the magnetic force sensing body and sensing a polarity of the magnetic force body, and a control unit electrically connected to the polarity sensing sensor, wherein the control unit changes the polarity of the magnetic force body And whether or not the raw water flows on the flow path can be discriminated.

In the present invention, the polarity sensing sensor is disposed near a magnetic force element fixed on the same axis as the impeller placed on the flow path, and the polarity change of the magnetic force body is measured to determine whether the flow of the raw water is in the flow path It is possible to determine whether the microcomputer senses the flow rate of the raw water flowing in the flow passage.

Flow sensing, impeller, magnetic force, polarity, magnetic, microcomputer

Description

TECHNICAL FIELD The present invention relates to a flow sensing apparatus and a flow sensing method using the flow sensing apparatus.

The present invention relates to a flow rate sensing apparatus and a flow rate sensing method using the same. More particularly, the present invention relates to a flow rate sensing apparatus and a flow rate sensing method using the same, And the flow rate sensing device senses the flow rate only when the microcomputer connected to the flow rate sensing device through the process of sensing the change in polarity flows the raw water into the flow channel, and a flow rate sensing method using the flow rate sensing device .

Currently, a water softener installed at a home or office has a basic function of chemically converting water-soluble ions contained in tap water into soft water.

The water softener is advantageous in that it can be used variously for cleansing, showering or washing dishes by removing substances harmful to human body. In order to use the advantage of the water softener described above, it is necessary to supply power steadily. It is a general method to supply electric power using a wire cord from a separate power source unit. In addition, But there is a problem that the user has to charge the battery periodically. Also, a cost incurred due to electric power consumed in the process of operating a motor or a valve, which is supplied with electric power through the power supply and requires driving, may be a problem.

On the other hand, the control unit checks the amount of the raw water supplied to the training tank or the regeneration tank through the original imported feeding path and the flow path switching valve through the flow rate sensing device to adjust the direction switching timing of the flow path switching valve. There is a problem that the microcomputer electrically connected to the flow rate sensing device in the process of measuring the raw water continues to be turned on and unnecessary electric power is consumed. That is, when raw water does not flow in the flow path, it is necessary to derive a method for enabling efficient use of electric power through a process of supplying only a minimum standby power to the microcomputer.

In order to solve the above problems, the present invention provides a method of detecting a position change of a magnetic force body rotating in conjunction with a rotationally driven impeller disposed on a raw water supply flow path, And a flow rate sensing device using the flow rate sensing device.

According to an aspect of the present invention, there is provided an apparatus for detecting flow rate, comprising: an impeller rotatably driven by raw water supplied from a water supply port and disposed on a flow path; And a control unit electrically connected to the polarity detection sensor, and a control unit electrically connected to the polarity detection sensor, the control unit including a magnetic sensor having a configuration in which the polarities of the S poles are alternately repeated, a polarity detection sensor spaced apart from the magnetic force member to sense polarity of the magnetic force member, And the control unit receives information on whether the polarity of the magnetic force body is changed from the polarity detection sensor, and determines whether the raw water flows on the flow path.

The controller may maintain a standby mode in which only the minimum power is supplied to the polarity detecting sensor in the initial position of the impeller.

In the standby mode, if the polarity is changed in the process of sensing the polarity of the polarity sensing sensor according to the measurement period previously set in the control unit, the control unit changes to a measurement mode for sensing a flow rate flowing through the channel.

The control unit may supply only the minimum standby power if the detected period of the polarity change is within a range smaller than the limit period set in advance by the controller.

The flow path may be a pipe for supplying raw water to the water softener of the water softener.

According to another aspect of the present invention, there is provided a flow rate sensing method including: an impeller disposed on a flow path and rotationally driven; a magnetic force integrally driven on the same axis as the impeller; (A) detecting an initial position of the impeller by sensing the polarity of the magnetic force sensor and transmitting the sensed polarity to a control unit, and (b) (C) detecting a polarity of the magnetic force body through the polarity detecting sensor according to a measurement cycle; and (d) Determining whether the initial position is changed by receiving information on whether the sensed polarity of the magnetic force body is changed from the detection sensor, and (e) If is characterized by including the step of measuring the raw water flowing through the flow path.

In the step (e), if the initial position is changed and the polarity change period is smaller than the limit change period predefined in the controller, the controller may maintain the standby mode for supplying only the minimum standby power have.

In the step (e), when the initial position does not change, the flow sensing device may maintain a standby mode in which only the minimum standby power is supplied.

In the flow rate sensing apparatus of the present invention described above, the polarity sensing sensor is disposed near the magnetic force element fixed on the same axis as the impeller placed on the flow path, and the polarity of the magnetic force sensor is measured, It is possible to determine whether or not the microcomputer senses the flow rate of the raw water flowing in the flow channel by detecting whether the raw water flows. Through the above process, the microcomputer normally maintains only the minimum standby power state, and only when the flow of the raw water is sensed, the normal power is supplied so that the power can be efficiently used.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a flow rate sensing apparatus and a flow rate sensing method using the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view seen from one direction of the flow sensing device according to the present invention, FIG. 2 is a plan view as seen from direction A of FIG. 1, FIG. 3 is a cross- FIG. 2 is a conceptual diagram for explaining the relationship between the impeller, the magnetic force member, and the polarity detection sensor which are components of the apparatus.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Hereinafter, the 'standby mode' is a state in which a minimum power is supplied to maintain the state in which the polarity detection sensor can receive a signal, and the 'measurement cycle' is a state in which the polarity detection sensor is in a standby mode, 'Wake up' means that the polarity sensor is out of the standby mode according to the measurement cycle and 'measurement mode' is the state in which the flow rate can be measured when the polarity sensor is out of the standby mode Respectively.

1 to 4, a general structure of a water softener system having a flow sensing apparatus 100 of the present invention will be described. The water softener system includes a flow path switching valve 20 supplied with raw water from the water inlet 10 through the raw water flow path 12, a regeneration tank 30 supplied with raw water from the flow path switching valve 20, A flow rate sensing device 100 disposed on the raw water supply flow passage 60 and a control part electrically connected to the flow rate sensing device 100. [ 150). The water softened in the water tub 40 is supplied to the shower device 50.

An impeller 110 disposed on the raw water supply passage 60 and rotationally driven by the raw water supplied from the water supply port 10, an impeller 110 which is rotated by the impeller 110 at the same speed, A magnetic sensor 120 having a configuration in which the polarities of the magnetic poles alternate with each other, and a polarity detecting sensor 130 fixedly disposed at a predetermined position around the magnetic poles 120 to sense the polarity of the magnetic poles 120 do. The impeller 110 is composed of a rotating shaft 111 fixed to be rotatable within the raw water supply passage 60 and a blade 113 having a spiral shape in the radial direction from the rotating shaft 111, It functions to change the kinetic energy of the generated linear kinetic energy. The magnetic force body 120 is fixed to a connection shaft 112 which can be formed coaxially with the rotating shaft 111 and is composed of a disk-like structure in which N and S poles are repeatedly arranged at regular intervals. Here, it is preferable that the magnetic force body 120 be structured such that the N pole magnet 122 and the S pole magnet 124 are disposed on each semicircle.

The polarity detection sensor 130 is disposed at a lower portion of the magnetic force body 120 to irradiate the magnetic force body 120 in a predetermined direction. The polarity sensor 130 repeatedly recognizes the N and S poles from the magnetic force body 120 while the magnetic force body 120 is driven in conjunction with the rotation of the impeller 110. [ The controller 150 is electrically connected to the polarity detecting sensor 130 and instructs the polarity detecting sensor 130 to check the polarity of the current state according to a preset measurement period. When the polarity sensed by the polarity sensor 130 fluctuates at every measurement period, the controller 150 regards the raw water as flowing in the raw water supply passage 60, and the controller 150 wakes up the polarity sensor 130, So as to measure the flow rate. If there is no change in the polarity in the measurement by the polarity detection sensor 130, the control unit 150 determines that there is no flow of the raw water in the raw water supply passage 60, and the controller 150 controls the polarity detection sensor 130 to supply only the minimum amount of electric power Thereby maintaining the standby mode.

If the polarity change period detected by the polarity detection sensor 130 is within a range smaller than the limit change period preset in the controller 150, the controller 150 controls the polarity detection sensor 130 to supply only the minimum standby power Thereby maintaining the standby mode. In other words, when the polarity of the flow sensor 100 is changed due to a cause such as occurrence of a water hammer that does not depend on the flow of the normal raw water, the cycle of changing the polarity may be significantly reduced. ) As the limit change period.

The flow rate sensing apparatus 100 includes an inlet 101 into which raw water supplied from the flow path switching valve 20 flows, a water outlet 102 through which raw water exits toward the water tub 40, And a flow rate regulating member 140 for mechanically controlling the flow rate of the discharged gas. The flow rate regulating member 140 includes a flow rate regulator 141, a membrane portion 142, a raw water feed portion 143, an elastic supporter 144 connected to the lower end of the flow rate regulator 141, 145). The operator adjusts the flow rate regulating valve 141 by a mechanical method in the course of the raw water flowing through the impeller 110 through the raw water flow portion 143 to the outlet port 102 and the elastic supporter 144 and the opening / 145 are moved to the upper and lower portions, the volume of the raw water feeding portion 143 can be adjusted.

FIG. 5 is a flowchart illustrating a time-series characteristic of a flow rate sensing method using the flow rate sensing apparatus according to the present invention. Hereinafter, a method of detecting a raw water quantity using the flow rate sensing apparatus 100 will be described with reference to FIG.

First, after power is supplied to the flow rate sensing apparatus 100 (S10), the controller 150 senses the polarity of the magnetic force body 120 from the polarity sensing sensor 130 to check the initial position of the impeller 110 (S11). Thereafter, the controller 150 causes the polarity detecting sensor 130 to supply only a minimum amount of power to maintain the standby mode (S12). The polarity sensing sensor 130 is converted into a measurement mode according to a predetermined measurement period in the control unit 150 to check the polarity of the magnetic force body 120 (S13). In step S14, it is determined whether or not the polarity values measured in steps S11 and S13 are different from each other (step S14). If there is no change in polarity in step S14, the polarity sensor 130 is continuously maintained in the standby mode If there is a change in the polarity, the controller 150 switches the polarity detecting sensor 130 to the normal measurement mode so as to sufficiently supply the required power (S15).

Then, it is determined whether the polarity change period is smaller than the predetermined limit change period in the control unit 150 (S16). If the change period is smaller than the limit change period, And changes the polarity detecting sensor 130 to the standby mode in view of the change caused by other factors. Further, when the polarity is continuously changed and the polarity change period longer than the limit change period is maintained, the continuous flow rate sensing state is maintained (S17).

As described above, the flow rate sensing device and the flow rate sensing method using the same according to the present invention are advantageous in that, from the polarity change of the magnetic force body 120 driven in conjunction with the rotation of the impeller 110 placed on the raw water supply passage 60 It is possible to reduce power consumption by detecting the flow rate of the raw water on the flow path 60 and sensing the flow rate through the polarity detection sensor 130 only when the raw water flows.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

1 is a perspective view of the flow rate sensing apparatus according to the present invention, viewed from one direction,

Fig. 2 is a plan view as seen from direction A in Fig. 1,

3 is a sectional view taken along the line A-A in Fig. 2,

4 is a conceptual view for explaining the relationship between the impeller, the magnetic force member, and the polarity detecting sensor, which are components of the flow rate sensing apparatus of the present invention, and

FIG. 5 is a flowchart illustrating a time-series characteristic of a flow rate sensing method using the flow rate sensing apparatus according to the present invention.

Description of the Related Art

10: water bulb 12: raw water channel

20: flow path switching valve 30: regenerator

40: Water tub 50: Shower device

60: raw water supply flow path 100: flow rate sensing device

101: inlet 102: outlet

110: impeller 111:

112: connecting shaft 113: blade

120: magnetic force body 122: N pole magnet

124: S pole magnet 130: Polarity detection sensor

140: Flow regulator 141: Flow regulator

142: Membrane section 143:

144: elastic support 145: fixed shaft

150:

Claims (8)

An impeller disposed on the flow path and rotationally driven by the raw water supplied from the water inlet; A magnetic force body having a structure in which polarities of N poles or S poles are alternately repeated as they are coupled to the impeller and rotated; A polarity detection sensor disposed apart from the magnetic force body to sense a polarity of the magnetic force body; And And a control unit electrically connected to the polarity detecting sensor, Wherein the control unit supplies only the minimum standby power to the polarity detecting sensor in an initial position of the impeller sensed by the polarity detecting sensor, The control unit receives information on whether the polarity of the magnetic force body is changed from the polarity detection sensor and determines whether the raw water on the channel is normally flowed according to a polarity change period which is compared with the initial position of the impeller If it is determined that the change period of the polarity sensed according to the measurement period previously set in the controller is within a range smaller than the limit change period set in the controller, If the detected change period of the polarity corresponds to a range larger than the limit change period predefined in the control unit, it is determined that the flow of the raw water is normal, and it is necessary to detect the polarity of the polarity detection sensor So that electric power is supplied to the flow sensing device. delete delete delete The method according to claim 1, Wherein the flow path is a pipe for supplying raw water to the water softener of the water softener. There is provided a flow rate sensing method using a flow rate sensing device including an impeller rotatably disposed on a flow path, a magnetic force integrally driven on the same axis as the impeller, and a polarity sensing sensor for measuring the polarity of the magnetic force, (a) sensing the polarity of the magnetic force sensor by the polarity detection sensor and transmitting the sensed polarity to the control unit to confirm an initial position of the impeller; (b) the controller supplies a minimum standby power to the flow sensing device; (c) sensing the polarity of the magnetic force body through the polarity detection sensor according to a measurement cycle; (d) receiving information on whether the sensed polarity of the magnetic force body is changed from the polarity detection sensor and comparing the detected polarity with the initial position to determine whether the raw water flowing on the flow path normally flows; And (e) if the sensed change period of the polarity corresponds to a range smaller than a limit change period predefined in the controller, it is determined that the flow is abnormal and the minimum standby power supply is maintained to the polarity sensor, If the sensed change period of the polarity corresponds to a range larger than a limit change period set in advance by the controller, it is determined that the flow of the raw water is normal and electric power necessary for sensing the polarity of the polarity sensor is supplied, Measuring a flow rate of the raw material; And a flow rate sensing device for sensing the flow rate. delete delete

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